内梨状神经元投射到腹侧CA1是识别记忆的关键节点。

IF 6.4 1区生物学 Q1 BIOLOGY

eLife Pub Date : 2025-01-21 DOI:10.7554/eLife.99642

Naoki Yamawaki, Hande Login, Solbjørg Østergaard Feld-Jakobsen, Bernadett Mercedesz Molnar, Mads Zippor Kirkegaard, Maria Moltesen, Aleksandra Okrasa, Jelena Radulovic, Asami Tanimura

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引用次数: 0

摘要

屏状核复合体被认为是高阶认知的基础；然而，其神经解剖亚区的电路组织和功能尚不清楚。我们证明了CLA复合体的一些关键作用可以归因于其腹侧亚区（EN）一小群神经元的连通性和功能。我们通过向腹侧CA1的投射确定了一个EN神经元亚群（ENvCA1-proj）。神经元)，嵌入与其他EN神经元和梨状皮质的循环回路中。尽管envca1项目。神经元活动在刺激类别中偏向于新颖性，它们的化学发生抑制选择性地破坏了小鼠对新颖性的记忆引导反应，而不是先天反应。基于我们的功能连通性分析，我们建议ENvCA1-proj。神经元作为识别记忆的重要节点，通过循环回路介导对新颖性的持续注意，并通过远端vCA1神经元的前馈抑制将记忆引导的行为从熟悉转移到新颖性。

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Endopiriform neurons projecting to ventral CA1 are a critical node for recognition memory.

The claustrum complex is viewed as fundamental for higher-order cognition; however, the circuit organization and function of its neuroanatomical subregions are not well understood. We demonstrated that some of the key roles of the CLA complex can be attributed to the connectivity and function of a small group of neurons in its ventral subregion, the endopiriform (EN). We identified a subpopulation of EN neurons by their projection to the ventral CA1 (EN^vCA1-proj. neurons), embedded in recurrent circuits with other EN neurons and the piriform cortex. Although the EN^vCA1-proj. neuron activity was biased toward novelty across stimulus categories, their chemogenetic inhibition selectively disrupted the memory-guided but not innate responses of mice to novelty. Based on our functional connectivity analysis, we suggest that EN^vCA1-proj. neurons serve as an essential node for recognition memory through recurrent circuits mediating sustained attention to novelty, and through feed-forward inhibition of distal vCA1 neurons shifting memory-guided behavior from familiarity to novelty.

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来源期刊

eLife BIOLOGY-

CiteScore

12.90

自引率

3.90%

发文量

3122

审稿时长

17 weeks

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